Frank-Hertz experiment with Ne tube not computer-assisted
Sku: 280362
Phywee
€3,906.72
€4,688.06
Topics covered:
- Amount of energy
- Quantum leap
- Electron collision
- Excitation energy
Principles and objectives:
Electrons are accelerated in a tube filled with neon vapor. The excitation energy of neon is determined from the distance between equidistant minima of the electron current in a variable opposing electric field. The study is divided into two parts:
- Record the intensity of the counter current Is in a Franck-Hertz tube as a function of the anodic voltage Ua.
- Determine the excitation energy Ea from the position of the minima or maxima of the current intensity by forming the difference.
Comments:
Fascinating Nobel Prize experiment (Franck-Hertz 1925). Compact neon tube in a sturdy housing - ready for use with a short warm-up time. Control unit compatible with Ne and Hg tubes. Easy-to-use software for control, data acquisition, and evaluation.
- Franck-Hertz tube power supply - Neon Franck-Hertz tube with housing - Connection wire for Franck-Hertz tube / Shielded BNC cable, length = 1 m - Software for Franck-Hertz experiment / USB - RS232 adapter Variant: Franck-Hertz experiment with Hg tube (Ref 280363)
| Thématique TP | Électricité |